Reflections on the motive power on heat of the environment and on machines fitted to develop that power

понеделник, 11 юли 2016 г.

one turbine - one compressor (physics)

Diagram 1 - one turbine, one working substance, one compressor, a refrigerant - an option which I will
discuss in this post.

The
power of the turbine will be superior to the power of the compressor if the
system for redistributing heat returns heat in the evaporator - I will try to prove it by dividing the
turbine (1) of two identical turbines and the same two turbines them turn
on reverse to become compressors - chart 2

If the valve
7a is closed and valve
7b open will work only turbine 1b.
Compressor 2b expands and compresses refrigerant R as at enlargement takes heat from the
working substance A after the turbine in a heat
exchanger 4b to a temperature equal or
less to the boiling point of the working substance A
so that it liquefies. The heat that we take from the working substance A is
transmitted to the liquid working substance in a heat exchanger 5 where compressor 2b compresses the refrigerant R. As I
said above compressor 2b is a reverse turbine 1b so that by conservation of energy should: If
power of turbine apply it to the compressor working substance A before the
turbine and then the compressor must have the same parameters - temperature,
volume and pressure .

Wautb = Winb

The same
forces - no change in the parameters of the working substance - no effective
unit. There is no way to apply a small force to the compressor
so to us remain useful
energy because we can not take away heat and give it to another body so that
the unit can not hold amounts of heat.

We begin to
open valve 7a. Turbine 1a starts. The same one reverse turbine
is a compressor 2a,
which expands and compresses refrigerant R so that at enlargement in heat exchanger
4a removes heat from the
working substance A after turbine 1a to liquefaction. The heat which is removed
from the working substance in a heat exchanger 4a return it to the evaporator
3. Pump refers working substance A at a temperature
equal or lower than the boiling point of
the heat exchanger 4a to the heat exchanger 5.

To compare
the forces of tubes 1a and reverse turbine - compressor 2a : Turbine 1a works to a temperature
difference T2 / Tbp and produces power Wout. By the laws of thermodynamics -
compressor 2a overcomes temperature difference T2 / Tbp so that it would need force Wina equal to the force produced by the
turbine Wouta

Wouta = Wina

How does the
inclusion of a turbine 1a and compressor 2a
of the balance of power Woutb and Winb?? Compressor 2b must give warmth that refrigerant R is accepted at expansion in heat
exchanger 4b of working substance A on a large amount of working substance in a heat
exchanger 5, because working substance after heat exchanger 4a is collected by the
working substance of the heat exchanger 4b. This violates equality Woutb = Winb

Because the
compressor 2b to overcome a small temperature difference therefore: